chem 59-250 the electronic structure of atoms classical hydrogen-like atoms: + - atomic scale: 10...
TRANSCRIPT
![Page 1: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/1.jpg)
Chem 59-250
The Electronic Structure of Atoms
Classical Hydrogen-like atoms:
+
-
Atomic Scale: 10-10 m or 1 Å
Proton mass : Electron mass 1836 : 1
Problems with classical interpretation: - Should not be stable (electron should spiral into nucleus)- Atomic spectra wrong (discrete lines instead of continuum)
![Page 2: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/2.jpg)
Chem 59-250
Quantum Chemical Interpretation:e- are best described by wave functions and quantum numbers.
Quantum numbers for electrons:
n = principal quantum number
l = azimuthal quantum number(orbital angular momentum)
ml = magnetic quantum number
ms = spin magnetic quantum number
“Quantum” means not continuous.
![Page 3: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/3.jpg)
Chem 59-250Energy levels and n
E h Hl h
R
n n1 1
2 2
where: nl < nh
Spectral transitions predicted by:
![Page 4: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/4.jpg)
Chem 59-250
R
e
2
4
2 4
0
2 2
h
Bohr Model of the H atom
= reduced mass (nucleus and electron)Z = nuclear charge (1 for H)e = charge of electron0 = permittivity of a vacuumh = Plank’s constant
EZ
n Rn
Rn
2
2 2
1
R = 13.6 eV
radius(n) = n2a0
a0 = Bohr radius = 0.529 Å
![Page 5: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/5.jpg)
Chem 59-250
n = principal Energy, Size SHELL
n = 1, 2, 3 …
n = 1 : ground state
n = 2 : first excited state
n = 3 : second excited state
E n n
13 6
12.
E1 = -13.6 eV
E2 = -3.40 eV
E3 = -1.51 eV
E4 = -0.85 eV
E5 = -0.54 eV•••E = 0 eV
![Page 6: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/6.jpg)
Chem 59-250
l = azimuthal, orbital angular momentum
degeneracy, shape SUBSHELL
l = 0, 1, 2 …n –1 degeneracy = 2 l + 1
l 0 1 2 3 4, 5, 6 …
type s p d f g, h, i …
degeneracy 1 3 5 7 9, 11, 13 …
s = “sharp”p = “principal”d = “diffuse”
![Page 7: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/7.jpg)
Chem 59-250
ml = magnetic type, “orientation in space” ORBITAL
ml = 0, ±1, ±2 …±l
# of orbitals in a subshell = 2 l + 1
l ml orbital
0 0 s
1 0 pz
±1 px
±1 py
2 0 d2z2-x2 -y2 = dz2
±1 dxz
±1 dyz
±2 dx2 –y2
±2 dxy1s orbital
![Page 8: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/8.jpg)
Chem 59-250
Wave functions and OrbitalsH E
= Rnl(r)Ylml(,)
Rnl(r) – radial function
Ylml(,) – angular function
polar coordinates
= wave function
2 = probability (electron) density
4r22 = radial distribution function
![Page 9: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/9.jpg)
Chem 59-250
Nodes: surfaces where there is 0 probability of finding an electron
Number of nodes = n - 1 Number of radial nodes = n - l –1Number of angular nodes = l 0 for s orbitals
1 for p orbitals2 for d orbitals (except dz2)
A website demonstrating nodes for 2D wavefunctions can be found at:http://www.kettering.edu/~drussell/Demos/MembraneCircle/Circle.html
![Page 10: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/10.jpg)
Chem 59-250
s orbitals
p orbitals (the shading is backwards)
![Page 11: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/11.jpg)
Chem 59-250
d orbitals
![Page 12: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/12.jpg)
Chem 59-250
Summary of quantum numbers needed for H:
n Energy of shell: , size: radius(n) = n2a0
l type (degeneracy) of subshell: s(1), p(3), d(5), f(7) ….
ml type and orientation of orbitals in a subshell
EZ
n Rn
2
2
Energy level diagram:
![Page 13: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/13.jpg)
Chem 59-250
+
--
Many electron atomsE
Zn R
n
2
2
E1 1
R
2 2
2
He, Z = 2
Predict: E1 = -54.4 eV
Actual: E1 = -24.6 eV
Something is wrong with the Bohr Model!
![Page 14: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/14.jpg)
Chem 59-250
ms = spin magnetic electron spin
ms = ±½ (-½ = ) (+½ = )
Pauli exclusion principle:
Each electron must have a unique set of quantum numbers.
Two electrons in the same orbital must have opposite spins.
Electron spin is a purely quantum mechanical concept.
N
S
H
![Page 15: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/15.jpg)
Chem 59-250
N
S
H
N
S
He
Energy level diagram for He. Electron configuration: 1s2
paramagnetic – one (more) unpaired electrons
diamagnetic – all paired electrons
Ene
rgy
1
2
3
0 1 2
n
l
![Page 16: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/16.jpg)
Chem 59-250
Effective Nuclear Charge, Z*
The presence of other electrons around a nucleus “screens” an electron from the full charge of the nucleus.
We can approximate the energy of the electrons by modifying the Bohr equation to account for the lower “effective” nuclear charge:
EZ
n Rn
*2
2
Z* = Z -
Z* is the effective nuclear chargeZ is the atomic number is the shielding or screening constant
![Page 17: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/17.jpg)
Chem 59-250
Helium , Z = 2
Predicted: E1 = -54.4 eV
Actual: E1 = -24.6 eV - 24.6 -13.61
2
2
Z *
Z *.
.
24 6 1
13 6
2
Z* = 1.34
1.34 = 2 -
= 0.66
+
--
EZ
n Rn
*2
2
![Page 18: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/18.jpg)
Chem 59-250
Lithium , Z = 3
Predicted: E2 = -30.6 eV
Actual: E2 = -5.4 eV -5.4 -13.62
2
2
Z *
Z *.
.
5 4 2
13 6
2
Z* = 1.26
1.26 = 3 -
= 1.74
+ -
-
-
EZ
n Rn
*2
2
![Page 19: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/19.jpg)
Chem 59-250We want to be able to predict and Z*
Slater’s rules for the prediction of for an electron:
1. Group electron configuration as follows:(1s)(2s,2p)(3s,3p)(3d)(4s,4p)(4d)(4f)(5s,5p) etc.
2. Electrons to the right (in higher subshells and shells) of an electron do not shield it.
3. If the electron of interest is an ns or np electron:a) each other electron in the same group contributes 0.35 (0.30 for 1s)b) each electron in an n-1 group contributes 0.85c) each electron in an n-2 or lower group contributes 1.00
4. If the electron of interest is an nd or nf electron:a) each other electron in the same group contributes 0.35b) each electron in a lower group (to the left) contributes 1.00
![Page 20: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/20.jpg)
Chem 59-250
Z* = Z -
Example with a valence electron on oxygen: O, Z = 8 Electron configuration: 1s2 2s2 2p4
a) (1s2) (2s2 2p4)
= (2 * 0.85) + (5 * 0.35) = 3.45 1s 2s,2p
Z* = Z -
Z* = 8 – 3.45 = 4.55
This electron is actually held with about 57% of the force that one would expect for a +8 nucleus.
![Page 21: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/21.jpg)
Chem 59-250
Z* = Z -
Example with two electrons for nickel: Ni, Z = 28 Electron configuration: 1s2 2s2 2p6 3s2 3p6 4s2 3d8
(1s2) (2s2 2p6) (3s2 3p6) (3d8) (4s2)
For a 3d electron: = (18 * 1.00) + (7 * 0.35) = 20.45 1s,2s,2p,3s,3p 3d
Z* = Z - Z* = 28 – 20.45 = 7.55
For a 4s electron: = (10 * 1.00) + (16 * 0.85) + (1 * 0.35) = 23.95 1s,2s,2p 3s,3p,3d 4s
Z* = Z - Z* = 28 – 23.95 = 4.05
![Page 22: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/22.jpg)
Chem 59-250
The basis of Slater’s rules for
s and p orbitals have better “penetration” to the nucleus than d (or f) orbitals for any given value of n
i.e. there is a greater probability of s and p electrons being near the nucleus
This means:
1. ns and np orbitals completely shield nd orbitals
2. (n-1) s and p orbitals don’t completely shield n s and p orbitals
![Page 23: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/23.jpg)
Chem 59-250 Periodicity of Effective Nuclear Charge
H1.00
He1.65
Li1.30
Na2.20
K2.20
Rb2.20Cs
2.20Ba
2.85
Sr2.85
Ca2.85
Mg2.85
Be1.95
B2.60
Al3.50Ga
5.00
In5.00Tl
5.00Pb
5.65
Sn5.65
Ge5.65
Si4.15
C3.25
N3.90
P4.80As
6.30
Sb6.30Bi
6.30Po
6.95
Te6.95
Se6.95
S5.45
O4.55
F5.20
Cl6.10Br
7.60
I7.60At
7.60Rn
8.25
Xe8.25
Kr8.25
Ar6.75
Ne5.85
Z* on valence electrons
![Page 24: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/24.jpg)
Chem 59-250 Shielding and Effective Nuclear Charge
The energy of valence electrons in an atom/ion changes with the loss of addition of an electron.
Slater’s rules are only approximate and can give poor predictions. For example:
They ignore the differences in penetration between s and p orbitals. Real s and p orbitals do not have the same energy.
They assume that all electrons in lower shells shield outer electrons equally effectively.
Z* can be used to estimate ionization energy:
H 13.6ie
2
2
Z *
n
![Page 25: Chem 59-250 The Electronic Structure of Atoms Classical Hydrogen-like atoms: + - Atomic Scale: 10 -10 m or 1 Å Proton mass : Electron mass 1836 : 1 Problems](https://reader035.vdocument.in/reader035/viewer/2022070411/56649f445503460f94c65688/html5/thumbnails/25.jpg)
Chem 59-250 Shielding and Effective Nuclear Charge
Effective nuclear charge can be used to rationalize properties such as the size of atoms and ions.
Cp*2Be Cp*2B+
Be and B+ are isoelectronic (1s2 2s2) but very different because of effective nuclear charge.